コード例 #1
0
ファイル: hash_map.hpp プロジェクト: alex-dengx/baserver
  size_t clean(bool (*valid_check)(const K&, const V&, const Argument&), Argument arg)
  {
    size_t count = 0;
    
    if ((mutexs_ == NULL) || (buckets_.size() != num_buckets_))
      return count;

    for (size_t i = 0; i < num_buckets_; ++i)
    {
      // Use write lock for exclusive write.
      write_lock_t lock(mutexs_[i % num_mutexs_]);

      bucket_t& bucket = buckets_[i];
      size_t bucket_size = bucket.size();
      for (size_t j = 0; j < bucket_size; ++j)
      {
        if (!valid_check(bucket[j].first, bucket[j].second, arg))
        {
          if (j != bucket_size - 1)
            bucket[j] = bucket[bucket_size - 1];

          bucket.pop_back();
          --bucket_size;
          ++count;
        }
      }
    }
    
    return count;
  }
コード例 #2
0
void main(){
	char a[20];
	printf("enter the string:");
	scanf("%s",a);		//reading valid data of format....dd-mm-yyyy.
	valid_check(a);		//checking whether given data valid or not.
	getch();
}
コード例 #3
0
ファイル: value_set_dereference.cpp プロジェクト: danpoe/cbmc
value_set_dereferencet::valuet value_set_dereferencet::build_reference_to(
  const exprt &what,
  const modet mode,
  const exprt &pointer_expr,
  const guardt &guard)
{
  const typet &dereference_type=
    ns.follow(pointer_expr.type()).subtype();

  if(what.id()==ID_unknown ||
     what.id()==ID_invalid)
  {
    invalid_pointer(pointer_expr, guard);
    return valuet();
  }

  if(what.id()!=ID_object_descriptor)
    throw "unknown points-to: "+what.id_string();

  const object_descriptor_exprt &o=to_object_descriptor_expr(what);

  const exprt &root_object=o.root_object();
  const exprt &object=o.object();

  #if 0
  std::cout << "O: " << from_expr(ns, "", root_object) << '\n';
  #endif

  valuet result;

  if(root_object.id()=="NULL-object")
  {
    if(options.get_bool_option("pointer-check"))
    {
      guardt tmp_guard(guard);

      if(o.offset().is_zero())
      {
        tmp_guard.add(null_pointer(pointer_expr));

        dereference_callback.dereference_failure(
          "pointer dereference",
          "NULL pointer", tmp_guard);
      }
      else
      {
        tmp_guard.add(null_object(pointer_expr));

        dereference_callback.dereference_failure(
          "pointer dereference",
          "NULL plus offset pointer", tmp_guard);
      }
    }
  }
  else if(root_object.id()==ID_dynamic_object)
  {
    // const dynamic_object_exprt &dynamic_object=
    //  to_dynamic_object_expr(root_object);

    // the object produced by malloc
    exprt malloc_object=
      ns.lookup(CPROVER_PREFIX "malloc_object").symbol_expr();

    exprt is_malloc_object=same_object(pointer_expr, malloc_object);

    // constraint that it actually is a dynamic object
    exprt dynamic_object_expr(ID_dynamic_object, bool_typet());
    dynamic_object_expr.copy_to_operands(pointer_expr);

    // this is also our guard
    result.pointer_guard=dynamic_object_expr;

    // can't remove here, turn into *p
    result.value=dereference_exprt(pointer_expr, dereference_type);

    if(options.get_bool_option("pointer-check"))
    {
      // if(!dynamic_object.valid().is_true())
      {
        // check if it is still alive
        guardt tmp_guard(guard);
        tmp_guard.add(deallocated(pointer_expr, ns));
        dereference_callback.dereference_failure(
          "pointer dereference",
          "dynamic object deallocated",
          tmp_guard);
      }

      if(options.get_bool_option("bounds-check"))
      {
        if(!o.offset().is_zero())
        {
          // check lower bound
          guardt tmp_guard(guard);
          tmp_guard.add(is_malloc_object);
          tmp_guard.add(
            dynamic_object_lower_bound(
              pointer_expr,
              ns,
              nil_exprt()));
          dereference_callback.dereference_failure(
            "pointer dereference",
            "dynamic object lower bound", tmp_guard);
        }

        {
          // check upper bound

          // we check SAME_OBJECT(__CPROVER_malloc_object, p) &&
          //          POINTER_OFFSET(p)+size>__CPROVER_malloc_size

          guardt tmp_guard(guard);
          tmp_guard.add(is_malloc_object);
          tmp_guard.add(
            dynamic_object_upper_bound(
              pointer_expr,
              dereference_type,
              ns,
              size_of_expr(dereference_type, ns)));
          dereference_callback.dereference_failure(
            "pointer dereference",
            "dynamic object upper bound", tmp_guard);
        }
      }
    }
  }
  else if(root_object.id()==ID_integer_address)
  {
    // This is stuff like *((char *)5).
    // This is turned into an access to __CPROVER_memory[...].

    if(language_mode==ID_java)
    {
      result.value=nil_exprt();
      return result;
    }

    const symbolt &memory_symbol=ns.lookup(CPROVER_PREFIX "memory");
    exprt symbol_expr=symbol_exprt(memory_symbol.name, memory_symbol.type);

    if(base_type_eq(
         ns.follow(memory_symbol.type).subtype(),
         dereference_type, ns))
    {
      // Types match already, what a coincidence!
      // We can use an index expression.

      exprt index_expr=index_exprt(symbol_expr, pointer_offset(pointer_expr));
      index_expr.type()=ns.follow(memory_symbol.type).subtype();
      result.value=index_expr;
    }
    else if(dereference_type_compare(
              ns.follow(memory_symbol.type).subtype(),
              dereference_type))
    {
      exprt index_expr=index_exprt(symbol_expr, pointer_offset(pointer_expr));
      index_expr.type()=ns.follow(memory_symbol.type).subtype();
      result.value=typecast_exprt(index_expr, dereference_type);
    }
    else
    {
      // We need to use byte_extract.
      // Won't do this without a commitment to an endianness.

      if(config.ansi_c.endianness==configt::ansi_ct::endiannesst::NO_ENDIANNESS)
      {
      }
      else
      {
        exprt byte_extract(byte_extract_id(), dereference_type);
        byte_extract.copy_to_operands(
          symbol_expr, pointer_offset(pointer_expr));
        result.value=byte_extract;
      }
    }
  }
  else
  {
    // something generic -- really has to be a symbol
    address_of_exprt object_pointer(object);

    if(o.offset().is_zero())
    {
      equal_exprt equality(pointer_expr, object_pointer);

      if(ns.follow(equality.lhs().type())!=ns.follow(equality.rhs().type()))
        equality.lhs().make_typecast(equality.rhs().type());

      result.pointer_guard=equality;
    }
    else
    {
      result.pointer_guard=same_object(pointer_expr, object_pointer);
    }

    guardt tmp_guard(guard);
    tmp_guard.add(result.pointer_guard);

    valid_check(object, tmp_guard, mode);

    const typet &object_type=ns.follow(object.type());
    const exprt &root_object=o.root_object();
    const typet &root_object_type=ns.follow(root_object.type());

    exprt root_object_subexpression=root_object;

    if(dereference_type_compare(object_type, dereference_type) &&
       o.offset().is_zero())
    {
      // The simplest case: types match, and offset is zero!
      // This is great, we are almost done.

      result.value=object;

      if(object_type!=ns.follow(dereference_type))
        result.value.make_typecast(dereference_type);
    }
    else if(root_object_type.id()==ID_array &&
            dereference_type_compare(
              root_object_type.subtype(),
              dereference_type))
    {
      // We have an array with a subtype that matches
      // the dereferencing type.
      // We will require well-alignedness!

      exprt offset;

      // this should work as the object is essentially the root object
      if(o.offset().is_constant())
        offset=o.offset();
      else
        offset=pointer_offset(pointer_expr);

      exprt adjusted_offset;

      // are we doing a byte?
      mp_integer element_size=
        dereference_type.id()==ID_empty?
        pointer_offset_size(char_type(), ns):
        pointer_offset_size(dereference_type, ns);

      if(element_size==1)
      {
        // no need to adjust offset
        adjusted_offset=offset;
      }
      else if(element_size<=0)
      {
        throw "unknown or invalid type size of:\n"+dereference_type.pretty();
      }
      else
      {
        exprt element_size_expr=
          from_integer(element_size, offset.type());

        adjusted_offset=binary_exprt(
          offset, ID_div, element_size_expr, offset.type());

        // TODO: need to assert well-alignedness
      }

      index_exprt index_expr=
        index_exprt(root_object, adjusted_offset, root_object_type.subtype());

      bounds_check(index_expr, tmp_guard);

      result.value=index_expr;

      if(ns.follow(result.value.type())!=ns.follow(dereference_type))
        result.value.make_typecast(dereference_type);
    }
    else if(get_subexpression_at_offset(
        root_object_subexpression,
        o.offset(),
        dereference_type,
        ns))
    {
      // Successfully found a member, array index, or combination thereof
      // that matches the desired type and offset:
      result.value=root_object_subexpression;
    }
    else
    {
      // we extract something from the root object
      result.value=o.root_object();

      // this is relative to the root object
      const exprt offset=pointer_offset(pointer_expr);

      if(memory_model(result.value, dereference_type, tmp_guard, offset))
      {
        // ok, done
      }
      else
      {
        if(options.get_bool_option("pointer-check"))
        {
          std::string msg="memory model not applicable (got `";
          msg+=from_type(ns, "", result.value.type());
          msg+="', expected `";
          msg+=from_type(ns, "", dereference_type);
          msg+="')";

          dereference_callback.dereference_failure(
            "pointer dereference",
            msg, tmp_guard);
        }

        return valuet(); // give up, no way that this is ok
      }
    }
  }

  return result;
}